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Force = mass x acceleration. Mass must be in kilograms and acceleration must be in meters per second squared.
For every second of acceleration the velocity is increased by that acceleration.
It would be (B-A)/8
You divide the given acceleration by the standard acceleration due to Earth's gravity. If the acceleration is in meters per second square, you divide by 9.8.You divide the given acceleration by the standard acceleration due to Earth's gravity. If the acceleration is in meters per second square, you divide by 9.8.You divide the given acceleration by the standard acceleration due to Earth's gravity. If the acceleration is in meters per second square, you divide by 9.8.You divide the given acceleration by the standard acceleration due to Earth's gravity. If the acceleration is in meters per second square, you divide by 9.8.
That's because you are dividing a speed by a time. In the case of constant acceleration, acceleration can be calculated as (difference in velocity) / time. In fact, that's basically how acceleration is defined. The corresponding units are (meters / second) / second.
After, and at the exact moment, the ball leaves the hand it is only accelerated by gravity if you disregard air resistance.
Force = mass x acceleration. Mass must be in kilograms and acceleration must be in meters per second squared.
Not enough information. One equation you can often use is Newton's Second Law: force = mass x acceleration Which, when solved for acceleration, gives you: acceleration = force / mass
Newton's second law is F=ma to so m=F/a
If you are talking about problems involving Newton's second law of motion, F = ma, you would need to define two of the three variables of force, mass, and acceleration in order to find the third variable. If you have force and mass, you can find acceleration. If you have force and acceleration, you can find mass. If you have mass and acceleration you can find force.
Convert the speed to meters per second. If you divide this by 1 second, you get the acceleration - since the time is 1 second, the speed and acceleration will be numerically equal. Then use Newton's Second Law: force = mass x acceleration, to find the force.
For every second of acceleration the velocity is increased by that acceleration.
sum of forces = mass (acceleration)-newton's second law
Acceleration is expressed in meters/second/second, usually written as meters/second2. This unit does not have a special name. On the other hand, in theory any combination of units of type (distance)/(time)/(time) or (speed)/(time) can be used, for example feet/second2, kilometers/hour/second, knots/second, etc. (Note that "knot" is a unit of speed, so dividing it by a time gives you an acceleration.)
It would be (B-A)/8
You divide the given acceleration by the standard acceleration due to Earth's gravity. If the acceleration is in meters per second square, you divide by 9.8.You divide the given acceleration by the standard acceleration due to Earth's gravity. If the acceleration is in meters per second square, you divide by 9.8.You divide the given acceleration by the standard acceleration due to Earth's gravity. If the acceleration is in meters per second square, you divide by 9.8.You divide the given acceleration by the standard acceleration due to Earth's gravity. If the acceleration is in meters per second square, you divide by 9.8.
If speed does not change, then acceleration is 0 To find acceleration, you must also know the time Speed = metres per second. Acceleration = meters per second, per second Therefore you can use the equation m/s2 to find the acceleration. change in speed/ change in time.